Prüfstand zur mikrofluidischen Multi-Sensor-Charakterisierung künstlicher nanopartikelbasierter Tumormodelle
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name_de: Mikrofluidischer Prüfstand für nanopartikelbasierte Onkologiemodellierung
name_en: Microfluidic test bench for nanoparticle-based oncology modeling
model: Mikrofluidischer Prüfstand für nanopartikelbasierte Onkologiemodellierung
url:
manufacturer: Lehrstuhl für Kunststofftechnik
year: 2024
location_de: Erlangen
location_en: Erlangen
usage_de: Nur organisationsintern
usage_en: Internal only
description_de:
Prüfstand zur mikrofluidischen Multi-Sensor-Charakterisierung künstlicher nanopartikelbasierter Tumormodelle
description_en:
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funding_sources: <QuerySet [<FundingSource: FundingSource: cris_id: 139453943, name: Deutsche Forschungsgemeinschaft (DFG), abbreviation: DFG>]>
projects: <QuerySet [<Project: Synthetic Molecular Communications Across Different Scales: From Theory to Experiments (SyMoCADS), SyMoCADS, https://www.symocads.research.fau.eu/, , <p>https://www.idc.tf.fau.de/neues-graduiertenkolleg-symocads/<br /></p>, <p>A new
research training group at FAU is being funded by the German Research
Foundation. The research training group entitled „Synthetic Molecular
Communications Across Different Scales: From Theory to Experiments“, or
SyMoCADS for short, is led by Prof. Robert Schober (as spokesperson) and
Prof. Kathrin Castiglione (Chair of Bioprocess Engineering) as
co-spokesperson.</p>
<p>This
structured training program addresses the highly interdisciplinary field
of molecular communication. Molecules are used as information carriers
to communicate with objects, cells or organisms in environments that are
not suitable for traditional communication systems based on
electromagnetic waves. Three different work clusters involving
researchers from the Departments of Electrical Engineering, Chemical and
Bioengineering, Mechanical Engineering, Chemistry and Pharmacy and
Biochemistry as well as the University Hospital are investigating the
sensing and control of bioprocesses on a microliter scale, the control
of magnetic nanoparticles in blood vessels and molecular communication
via volatile odorous objects.</p><p></p>, 2024-06-01, 2029-05-31, , 2029-05-31, Third Party Funds Group - Overall project, True>]>
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fobes: <QuerySet [<ResearchArea: Research Area:
Title: | Additive Fertigung,
Description: | <ul><li><a href="https://www.lkt.tf.fau.de/forschung/forschungsschwerpunkte/pulverwerkstoffe/">Pulverwerkstoffe</a></li><li><a href="https://www.lkt.tf.fau.de/forschung/forschungsschwerpunkte/prozessanalyse-simulation/">Prozessanalyse / -simulation</a></li><li><a href="https://www.lkt.tf.fau.de/forschung/forschungsschwerpunkte/additive-fertigung-strahlschmelzen/funktionsintegration/">Funktionsintegration</a></li><li><a href="https://www.lkt.tf.fau.de/forschung/forschungsschwerpunkte/qualitaetssicherung/">Qualitätssicherung</a></li><li><a href="https://www.lkt.tf.fau.de/forschung/forschungsschwerpunkte/medical-rapid-prototyping/">Medical Rapid Prototyping</a></li></ul><p></p>,
Classification: Field of Research | Forschungsbereich
>]>
orgas: <QuerySet [<Organisation: Lehrstuhl für Kunststofftechnik (LKT), , Erlangen, 91058, Am Weichselgarten, 2999-12-31, Department Maschinenbau, True>]>
